moscot.problems.space.AlignmentProblem.prepare¶

AlignmentProblem.prepare(batch_key, spatial_key='spatial', joint_attr=None, policy='sequential', reference=None, normalize_spatial=True, cost='sq_euclidean', cost_kwargs=mappingproxy({}), a=None, b=None, xy_callback=None, x_callback=None, y_callback=None, xy_callback_kwargs=mappingproxy({}), x_callback_kwargs=mappingproxy({}), y_callback_kwargs=mappingproxy({}), subset=None, marginal_kwargs=mappingproxy({}))[source]¶

Prepare the alignment problem problem.

See also

See Alignment of spatial transcriptomics data on how to prepare and solve the AlignmentProblem.

Parameters:

batch_key (str) – Key in obs where the slices are stored.
spatial_key (str) – Key in obsm where the spatial coordinates are stored.
joint_attr (Union[str, Mapping[str, Any], None]) –
How to get the data for the linear term in the fused case:
- None - PCA on X is computed.
- str - key in obsm where the data is stored.
- dict - it should contain 'attr' and 'key', the attribute and key in AnnData, and optionally 'tag' from the tags.
By default, tag = 'point_cloud' is used.
policy (Literal['sequential', 'star']) –
Rule which defines how to construct the subproblems using obs['{batch_key}']. Valid options are:
- 'sequential' - align subsequent slices.
- 'star' - align all slices to the reference.
reference (Optional[str]) – Spatial reference when policy = 'star'.
normalize_spatial (bool) – Whether to normalize the spatial coordinates. If True, the coordinates are normalized by standardizing them.
cost (Union[Literal['euclidean', 'sq_euclidean', 'cosine', 'pnorm_p', 'sq_pnorm', 'geodesic'], Mapping[Literal['xy', 'x', 'y'], Literal['euclidean', 'sq_euclidean', 'cosine', 'pnorm_p', 'sq_pnorm', 'geodesic']]]) –
Cost function to use. Valid options are:
- str - name of the cost function for all terms, see get_available_costs().
- dict - a dictionary with the following keys and values:
  - 'xy' - cost function for the linear term.
  - 'x' - cost function for the source quadratic term.
  - 'y' - cost function for the target quadratic term.
cost_kwargs (Union[Mapping[str, Any], Mapping[Literal['x', 'y', 'xy'], Mapping[str, Any]]]) – Keyword arguments for the BaseCost or any backend-specific cost.
a (Union[bool, str, None]) –
Source marginals. Valid options are:
- str - key in obs where the source marginals are stored.
- bool - if True, estimate the marginals, otherwise use uniform marginals.
- None - uniform marginals.
b (Union[bool, str, None]) –
Target marginals. Valid options are:
- str - key in obs where the target marginals are stored.
- bool - if True, estimate the marginals, otherwise use uniform marginals.
- None - uniform marginals.
xy_callback (Union[Literal['local-pca'], Callable[[Literal['xy', 'x', 'y'], AnnData, Optional[AnnData]], Optional[TaggedArray]], None]) – Callback function used to prepare the data in the linear term.
x_callback (Union[Literal['local-pca'], Callable[[Literal['xy', 'x', 'y'], AnnData, Optional[AnnData]], Optional[TaggedArray]], None]) – Callback function used to prepare the data in the source quadratic term.
y_callback (Union[Literal['local-pca'], Callable[[Literal['xy', 'x', 'y'], AnnData, Optional[AnnData]], Optional[TaggedArray]], None]) – Callback function used to prepare the data in the target quadratic term.
xy_callback_kwargs (Mapping[str, Any]) – Keyword arguments for the xy_callback.
x_callback_kwargs (Mapping[str, Any]) – Keyword arguments for the x_callback.
y_callback_kwargs (Mapping[str, Any]) – Keyword arguments for the y_callback.
subset (Optional[Sequence[Tuple[TypeVar(K, bound= Hashable), TypeVar(K, bound= Hashable)]]]) – Subset of obs['{key}'] for the ExplicitPolicy. Only used when policy = 'explicit'.
marginal_kwargs (Mapping[str, Any]) – Keyword arguments for the estimate_marginals() method.

Return type:

AlignmentProblem[TypeVar(K, bound= Hashable), TypeVar(B, bound= OTProblem)]

Returns:

: Returns self and updates the following fields:

problems - the prepared subproblems.
solutions - set to an empty dict.
spatial_key - key in obsm where the spatial coordinates are stored.
batch_key - key in obs where batches are stored.
stage - set to 'prepared'.
problem_kind - set to 'quadratic'.